#include "hal_data.h"
#include <stdio.h>
FSP_CPP_HEADER
void R_BSP_WarmStart(bsp_warm_start_event_t event);
FSP_CPP_FOOTER


fsp_err_t err = FSP_SUCCESS;
volatile bool uart_send_complete_flag = false;
void user_uart_callback (uart_callback_args_t * p_args)
{
    if(p_args->event == UART_EVENT_TX_COMPLETE)
    {
        uart_send_complete_flag = true;
    }
}

#ifdef __GNUC__                                 //串口重定向
    #define PUTCHAR_PROTOTYPE int __io_putchar(int ch)
#else

#endif


PUTCHAR_PROTOTYPE
{
        err = R_SCI_UART_Write(&g_uart9_ctrl, (uint8_t *)&ch, 1);
        if(FSP_SUCCESS != err) __BKPT();
        while(uart_send_complete_flag == false){}
        uart_send_complete_flag = false;
        return ch;
}

int _write(int fd,char *pBuffer,int size)
{
    for(int i=0;i<size;i++)
    {
        __io_putchar(*pBuffer++);
    }
    return size;
}


//RTC变量
/* rtc_time_t is an alias for the C Standard time.h struct 'tm' */
rtc_time_t set_time =
{
    .tm_sec  = 50,      /* 秒，范围从 0 到 59 */
    .tm_min  = 59,      /* 分，范围从 0 到 59 */
    .tm_hour = 23,      /* 小时，范围从 0 到 23*/
    .tm_mday = 28,      /* 一月中的第几天，范围从 1 到 31*/
    .tm_mon  = 1,       /* 月份，范围从 0 到 11*/
    .tm_year = 125,     /* 自 1900 起的年数，2025为125*/
    .tm_wday = 5,       /* 一周中的第几天，范围从 0 到 6*/
//    .tm_yday=0,       /* 一年中的第几天，范围从 0 到 365*/
//    .tm_isdst=0;      /* 夏令时*/
};

//RTC闹钟变量
rtc_alarm_time_t set_alarm_time=
{
     .time.tm_sec  = 10,      /* 秒，范围从 0 到 59 */
     .time.tm_min  = 30,      /* 分，范围从 0 到 59 */
     .time.tm_hour = 12,      /* 小时，范围从 0 到 23*/
     .time.tm_mday = 1,       /* 一月中的第几天，范围从 1 到 31*/
     .time.tm_mon  = 2,       /* 月份，范围从 0 到 11*/
     .time.tm_year = 125,     /* 自 1900 起的年数，2025为125*/
     .time.tm_wday = 6,       /* 一周中的第几天，范围从 0 到 6*/

     .sec_match        =  1,
     .min_match        =  0,
     .hour_match       =  0,
     .mday_match       =  0,
     .mon_match        =  0,
     .year_match       =  0,
     .dayofweek_match  =  0,
    };

//RTC回调函数
volatile bool rtc_flag = 0;//RTC延时1s标志位
volatile bool rtc_alarm_flag = 0;//RTC闹钟
/* Callback function */
void rtc_callback(rtc_callback_args_t *p_args)
{
    /* TODO: add your own code here */
    if(p_args->event == RTC_EVENT_PERIODIC_IRQ)
        rtc_flag=1;
    else if(p_args->event == RTC_EVENT_ALARM_IRQ)
        rtc_alarm_flag=1;
}


/*******************************************************************************************************************//**
 * main() is generated by the RA Configuration editor and is used to generate threads if an RTOS is used.  This function
 * is called by main() when no RTOS is used.
 **********************************************************************************************************************/
void hal_entry(void)
{
    /* TODO: add your own code here */

    /* Open the transfer instance with initial configuration. */
    err = R_SCI_UART_Open(&g_uart9_ctrl, &g_uart9_cfg);
    assert(FSP_SUCCESS == err);
    printf("hello world!\n");


    /**********************RTC开启***************************************/
    /* Initialize the RTC module*/
    err = R_RTC_Open(&g_rtc0_ctrl, &g_rtc0_cfg);

    /* Handle any errors. This function should be defined by the user. */
    assert(FSP_SUCCESS == err);

    /* Set the RTC clock source. Can be skipped if "Set Source Clock in Open" property is enabled. */
    R_RTC_ClockSourceSet(&g_rtc0_ctrl);
    /* R_RTC_CalendarTimeSet must be called at least once to start the RTC */
    R_RTC_CalendarTimeSet(&g_rtc0_ctrl, &set_time);
    /* Set the periodic interrupt rate to 1 second */
    R_RTC_PeriodicIrqRateSet(&g_rtc0_ctrl, RTC_PERIODIC_IRQ_SELECT_1_SECOND);

    R_RTC_CalendarAlarmSet(&g_rtc0_ctrl, &set_alarm_time);
    uint8_t rtc_second= 0;      //秒
    uint8_t rtc_minute =0;      //分
    uint8_t rtc_hour =0;         //时
    uint8_t rtc_day =0;          //日
    uint8_t rtc_month =0;      //月
    uint16_t rtc_year =0;        //年
    uint8_t rtc_week =0;        //周
    rtc_time_t get_time;

    while(1)
    {
        if(rtc_flag)
        {
            R_RTC_CalendarTimeGet(&g_rtc0_ctrl, &get_time);//获取RTC计数时间
            rtc_flag=0;
            rtc_second=get_time.tm_sec;//秒
            rtc_minute=get_time.tm_min;//分
            rtc_hour=get_time.tm_hour;//时
            rtc_day=get_time.tm_mday;//日
            rtc_month=get_time.tm_mon;//月
            rtc_year=get_time.tm_year; //年
            rtc_week=get_time.tm_wday;//周
            printf(" %d y %d m %d d %d h %d m %d s %d w\n",rtc_year+1900,rtc_month+1,rtc_day,rtc_hour,rtc_minute,rtc_second,rtc_week);


            }
        if(rtc_alarm_flag)
        {
            rtc_alarm_flag=0;
            printf("/************************Alarm Clock********************************/\n");
            }
        R_BSP_SoftwareDelay(10U, BSP_DELAY_UNITS_MILLISECONDS);
        }




#if BSP_TZ_SECURE_BUILD
    /* Enter non-secure code */
    R_BSP_NonSecureEnter();
#endif
}

/*******************************************************************************************************************//**
 * This function is called at various points during the startup process.  This implementation uses the event that is
 * called right before main() to set up the pins.
 *
 * @param[in]  event    Where at in the start up process the code is currently at
 **********************************************************************************************************************/
void R_BSP_WarmStart(bsp_warm_start_event_t event)
{
    if (BSP_WARM_START_RESET == event)
    {
#if BSP_FEATURE_FLASH_LP_VERSION != 0

        /* Enable reading from data flash. */
        R_FACI_LP->DFLCTL = 1U;

        /* Would normally have to wait tDSTOP(6us) for data flash recovery. Placing the enable here, before clock and
         * C runtime initialization, should negate the need for a delay since the initialization will typically take more than 6us. */
#endif
    }

    if (BSP_WARM_START_POST_C == event)
    {
        /* C runtime environment and system clocks are setup. */

        /* Configure pins. */
        R_IOPORT_Open (&IOPORT_CFG_CTRL, &IOPORT_CFG_NAME);

#if BSP_CFG_SDRAM_ENABLED

        /* Setup SDRAM and initialize it. Must configure pins first. */
        R_BSP_SdramInit(true);
#endif
    }
}

#if BSP_TZ_SECURE_BUILD

FSP_CPP_HEADER
BSP_CMSE_NONSECURE_ENTRY void template_nonsecure_callable ();

/* Trustzone Secure Projects require at least one nonsecure callable function in order to build (Remove this if it is not required to build). */
BSP_CMSE_NONSECURE_ENTRY void template_nonsecure_callable ()
{

}
FSP_CPP_FOOTER

#endif
